CN109924156B

CN109924156B - Fish feeding device with stirring blades

Info

Publication number: CN109924156B
Application number: CN201910157897.1A
Authority: CN
Inventors: 王利军; 林碧秀
Original assignee: Individual
Current assignee: Shandong Blue Ocean Science & Technology Co ltd
Priority date: 2019-03-02
Filing date: 2019-03-02
Publication date: 2021-03-30
Anticipated expiration: 2039-03-02
Also published as: CN109924156A; CN112772513A

Abstract

The invention discloses a fish feeding device with stirring blades, which structurally comprises a machine body, side blocks, a control panel and supporting legs, wherein the device is partially improved in structure, so that feed can be controlled to be discharged left and right through a stirring mechanism when the device is used, the angle range of the feed discharge is enlarged, the condition that the single direction of feed feeding is caused to avoid that a great amount of fish are gathered in a feeding area and the subsequent fish are difficult to feed is avoided, the fed feed absorbs water and precipitates in a period of time to influence the normal eating of the fish, meanwhile, a blowing component drives a wind speed adjusting mechanism to operate, the size of the caliber of a pipeline is continuously changed when the pipeline pushes the feed by giving out air, the speed of airflow is adjusted, the condition that the feed feeding distance is single is avoided, the feed can be pushed only to a fixed area to enable the feed in the area to be stacked together, is not convenient for fish to eat.

Description

Fish feeding device with stirring blades

Technical Field

The invention relates to the field of fish feeding devices, in particular to a fish feeding device with stirring blades.

Background

The fish feeding device is used as a fish pond feeding device, feed is added into the storage tank on the fish feeding device, the fish feeding device is thrown in a certain time, and compared with the manual throwing, the fish feeding device is efficient and widely applied to modern aquaculture.

1. However, when the existing equipment is used for feeding the feed, the feed is usually fed in a single direction, so that a large number of fishes are gathered in a feeding area, subsequent fishes are difficult to feed, and the fed feed can absorb water and precipitate in a period of time, so that the normal eating of the fishes is influenced.

2. When putting in the fodder simultaneously, feeding device's speed often is fixed, leads to the fodder to put in apart from single, can only promote to a fixed region and put in the fodder, makes the fodder in this region pile up together, and the fish of not being convenient for eats.

Disclosure of Invention

Aiming at the defects of the prior art, the invention is realized by the following technical scheme: the fish feeding device with the stirring blades structurally comprises a machine body, side blocks, a control panel and supporting legs, wherein the bottom end of the machine body is welded to the top ends of the supporting legs, the side blocks are arranged in the middle of the machine body, the control panel is embedded in the front end of the machine body, the control panel is located under the side blocks, the machine body comprises a feeding mechanism, a shell, a blowing assembly, a wind speed adjusting mechanism and a shifting mechanism, the left end and the right end of the feeding mechanism are respectively welded to the left end and the right end of the shell, the right end of the blowing assembly is welded to the left end of the wind speed adjusting mechanism, the bottom end of the wind speed adjusting mechanism is welded to the bottom end of the shell, the shifting mechanism is vertically embedded into the top end of the right side of the feeding mechanism, and the shifting mechanism is located on the right side of.

As a further optimization of the technical scheme, the feeding mechanism comprises a storage tank, a stirring blade, a stirring tank and a discharge pipeline, the bottom end of the storage tank is welded with the top end of the stirring tank, the stirring blade is embedded and installed in the stirring tank, the bottom end of the stirring tank is welded with the top end of the discharge pipeline, the stirring blade is located right above the discharge pipeline, the left end of the discharge pipeline is welded with the right end of the blowing assembly, and the middle part of the stirring tank is located by the stirring blade.

As a further optimization of the technical scheme, the blowing assembly comprises a rotating blade, a sealing shell and a supporting valve block, the rotating blade is embedded in the middle of the sealing shell, the top end of the supporting valve block is welded with the bottom end of the sealing shell, the rotating blade is located above the supporting valve block, and the right end of the sealing shell is welded with the left end of the discharge pipeline.

As a further optimization of the technical scheme, the wind speed adjusting mechanism comprises a driving mechanism and a pipe diameter control assembly, the bottom end of the driving mechanism is movably connected with the top end of the pipe diameter control assembly, the driving mechanism comprises a connecting rod rotating block, a speed change gear box, a belt and a connecting rod, the connecting rod rotating block is arranged in the middle of the speed change gear box, the belt is horizontally embedded into the left end of the speed change gear box, the bottom end of the connecting rod is hinged with the outer ring part of the connecting rod rotating block, the bottom end of the connecting rod rotating block is movably connected with the middle part of the pipe diameter control assembly, and the connecting rod rotating block is movably connected with the speed change gear box.

As the further optimization of the technical scheme, the pipe diameter control assembly comprises a lower pressing plate rotating block, a lower pressing plate, a connecting rod connecting block and a telescopic sealing strip, the left end of the lower pressing plate is arranged in the middle of the lower pressing plate rotating block, the top end of the lower pressing plate and the bottom end of the connecting rod connecting block are of an integrated structure, the top end of the telescopic sealing strip is welded with the outer ring part of the middle of the lower pressing plate, the middle of the connecting rod connecting block is movably connected with the bottom end of the connecting rod rotating block, and the lower pressing plate rotating block is hinged with the lower pressing plate.

As a further optimization of this technical scheme, the subassembly is stirred including reciprocal actuating mechanism, drive coupling assembling, flow direction to toggle the mechanism, reciprocal actuating mechanism and drive coupling assembling's left end swing joint, the left end swing joint of subassembly is stirred with the flow direction to drive coupling assembling's right-hand member, reciprocal actuating mechanism includes motor, sector gear pivot, sector gear, the middle part at the motor is installed in sector gear pivot embedding, sector gear and sector gear pivot structure as an organic whole.

As the further optimization of this technical scheme, drive coupling assembling is including moving frame, connecting block, linking piece, straight toothed bar, moving frame's right-hand member is equipped with the left end of connecting block, the connecting block imbeds at the left end that links up the piece perpendicularly, the left end of straight toothed bar and the right-hand member that links up the piece are integrated structure, the right-hand member of straight toothed bar stirs the left end swing joint of subassembly with the flow direction, moving frame welds with the connecting block mutually.

As a further optimization of this technical scheme, the subassembly is stirred in the flow direction includes driving lever pivot, driving lever, cooperation gear, driving lever pivot and driving lever left end be the integral structure, cooperation gear and driving lever pivot are located the same axle center, the left end of cooperation gear and the right-hand member swing joint of straight-tooth pole, cooperation gear and driving lever pivot are the integral structure.

As a further optimization of the technical scheme, the flow direction toggle assembly is a rectangular flat plate, and the right end of the flow direction toggle assembly is provided with a semicircular arc long-strip entity.

Advantageous effects

The fish feeding device with the stirring blades has the advantages that when equipment is used, raw materials are added into the material storage tank on the machine body, the stirring blades stir the raw materials, the raw materials are discharged onto the discharge pipeline, meanwhile, the rotating blades rotate to generate wind energy to blow the feed, when the rotating blades rotate, the speed change gear box on the wind speed adjusting mechanism is driven to rotate, the connecting rod rotating block is driven to rotate, the connecting rod is pushed to reciprocate up and down, the lower pressing plate is pushed to move up and down, the caliber of the exhaust pipeline is improved, the gas of the feed is pushed to a large size and a small size, the distance of the feed pushed on the water surface is short and long, the feed feeding distance is avoided to be single, the feed can be pushed only to a fixed area, the feed in the area is accumulated together, the fish is inconvenient to eat, and when the feed is conveyed, the motor passband moves sector gear shaft and rotates, make sector gear and moving frame's inside casing cooperate, make moving frame carry out reciprocating motion from top to bottom, it cooperatees with the cooperation gear to drive straight ratch, make it drive the epaxial driving lever of driving lever and carry out stirring about, stir about the fodder in the transportation, it is single to avoid the fodder to put in the independent direction, a large amount of fishes of regional gathering that lead to putting in, subsequent fish are difficult to obtain feeding, and the fodder of putting in can absorb water at a period and precipitate, influence the normal edible of fish.

Based on the prior art, the invention improves the partial structure of the equipment;

1. make it when using, can control the fodder through toggle mechanism and control the emission about discharging when discharging, increaseed the angle scope that the fodder discharged, avoid the fodder to put in single direction alone, lead to a large amount of fishes of regional gathering of input, subsequent fish is difficult to be fed, and the fodder of putting in can absorb water at a period and deposit, influences the normal edible of fish.

2. Blow the subassembly simultaneously and drive the operation of wind speed adjustment mechanism, make the pipeline when giving vent to anger and promote the fodder, the size of continuous change pipeline bore to adjust the speed of air current, avoid the fodder to put in the distance single, only can promote to a fixed region and put in the fodder, make the fodder in this region pile up together, the fish of being not convenient for eat.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic view of the structure of a fish feeding device with stirring blades according to the present invention.

Fig. 2 is a detailed cross-sectional structural view of the machine body before operation.

Fig. 3 is a detailed cross-sectional structural diagram of the machine body in operation.

Fig. 4 is a detailed structural diagram of the cross section of the toggle mechanism before operation.

Fig. 5 is a detailed structural diagram of the cross section of the toggle mechanism after operation.

FIG. 6 is a schematic cross-sectional detailed structure diagram of the wind speed adjusting mechanism of the present invention before operation.

FIG. 7 is a schematic cross-sectional detailed structure diagram of the wind speed adjusting mechanism of the present invention after operation.

In the figure: a machine body-1, a side block-2, a control panel-3, supporting feet-4, a feeding mechanism-11, a shell-12, a blowing component-13, a wind speed adjusting mechanism-14, a toggle mechanism-15, a material storage tank-111, a stirring blade-112, a stirring tank-113, a discharge pipeline-114, a rotating blade-131, a sealing shell-132, a supporting valve block-133, a driving mechanism-141, a pipe diameter control component-142, a connecting rod rotating block-1411, a change gear box-1412, a belt-1413, a connecting rod-1414, a lower pressing plate rotating block-1421, a lower pressing plate-1422, a connecting rod connecting block-1423, a telescopic sealing strip-1424, a reciprocating driving mechanism-151, a driving connecting component-152, a flow direction toggle component-153, a flow direction control component-152, A motor-1511, a sector gear rotating shaft-1512, a sector gear-1513, a moving frame-1521, a connecting block-1522, a connecting block-1523, a straight tooth rod-1524, a driving lever rotating shaft-1531, a driving lever-1532 and a matching gear-1533.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.

Examples

Referring to fig. 1-7, the present invention provides a fish feeding device with stirring blades, which comprises a machine body 1, a side block 2, a control board 3 and supporting legs 4, wherein the bottom end of the machine body 1 is welded with the top ends of the supporting legs 4, the side block 2 is arranged in the middle of the machine body 1, the control board 3 is embedded in the front end of the machine body 1, the control board 3 is positioned right below the side block 2, the machine body 1 comprises a feeding mechanism 11, a shell 12, a blowing assembly 13, a wind speed adjusting mechanism 14 and a toggle mechanism 15, the left and right ends of the feeding mechanism 11 are respectively welded with the left and right ends in the shell 12, the right end of the blowing assembly 13 is welded with the left end of the wind speed adjusting mechanism 14, the bottom end of the wind speed adjusting mechanism 14 is welded with the bottom end in the shell 12, the toggle mechanism 15 is vertically embedded in the top end of the feeding mechanism 11, the toggle mechanism 15 is located at the right side of the wind speed adjusting mechanism 14, the feeding mechanism 11 includes a storage tank 111, a stirring blade 112, a stirring tank 113, and a discharge pipe 114, the bottom end of the storage tank 111 is welded to the top end of the stirring tank 113, the stirring blade 112 is embedded in the stirring tank 113, the bottom end of the stirring tank 113 is welded to the top end of the discharge pipe 114, the stirring blade 112 is located right above the discharge pipe 114, the left end of the discharge pipe 114 is welded to the right end of the blowing component 13, the stirring blade 112 is located in the middle of the stirring tank 113, the blowing component 13 includes a rotating blade 131, a sealing shell 132, and a support valve block 133, the rotating blade 131 is embedded in the middle of the sealing shell 132, the top end of the support valve block 133 is welded to the bottom end of the sealing shell 132, the rotating blade 131 is located above the support valve block 133, and the right end of the sealing shell 132 is welded to the left end of the discharge pipe 114, the wind speed adjusting mechanism 14 comprises a driving mechanism 141 and a pipe diameter control assembly 142, the bottom end of the driving mechanism 141 is movably connected with the top end of the pipe diameter control assembly 142, the driving mechanism 141 comprises a joint rod rotating block 1411, a speed change gear box 1412, a belt 1413 and a joint rod 1414, the joint rod rotating block 1411 is arranged in the middle of the speed change gear box 1412, the belt 1413 is horizontally embedded in the left end of the speed change gear box 1412, the bottom end of the joint rod 1414 is hinged with the outer ring part of the joint rod rotating block 1411, the bottom end of the joint rod rotating block 1411 is movably connected with the middle of the pipe diameter control assembly 142, the joint rod rotating block 1411 is movably connected with the speed change gear box 1412, the pipe diameter control assembly 142 comprises a lower pressing plate rotating block 1421, a lower pressing plate 1422, a joint rod connecting block 1423 and a telescopic sealing tape 1424, the left end of the lower pressing plate 1422 is arranged in the middle of the lower, the top end of the lower pressing plate 1422 and the bottom end of the connecting block 1423 are integrated, the top end of the telescopic sealing tape 1424 is welded to the outer ring portion of the middle portion of the lower pressing plate 1422, the middle portion of the connecting block 1423 is movably connected to the bottom end of the connecting block 1411, the lower pressing plate 1421 is hinged to the lower pressing plate 1422, the toggle mechanism 15 includes a reciprocating driving mechanism 151, a driving connection assembly 152 and a flow direction toggle assembly 153, the reciprocating driving mechanism 151 is movably connected to the left end of the driving connection assembly 152, the right end of the driving connection assembly 152 is movably connected to the left end of the flow direction toggle assembly 153, the reciprocating driving mechanism 151 includes a motor 1511, a sector gear rotating shaft 1512 and a sector gear 1513, the sector gear rotating shaft 1512 is embedded in the middle portion of the motor 1511, and the sector gear rotating shaft 1512 is integrated with the sector gear rotating shaft 1512, the driving connection assembly 152 comprises a moving frame 1521, a connection block 1522, a connection block 1523 and a straight-tooth rod 1524, the right end of the moving frame 1521 is provided with the left end of the connection block 1522, the connection block 1522 is vertically embedded into the left end of the connection block 1523, the left end of the straight-tooth rod 1524 and the right end of the connection block 1523 are of an integrated structure, the right end of the straight-tooth rod 1524 is movably connected with the left end of the flow direction shifting assembly 153, the moving frame 1521 is welded with the connection block 1522, the flow direction shifting assembly 153 comprises a shifting lever rotating shaft 1531, a shifting lever 1532 and a matching gear 1533, the shifting lever rotating shaft 1531 and the left end of the shifting lever 1532 are of an integrated structure, the matching gear 1533 and the shifting lever rotating shaft 1531 are located on the same axis, the left end of the matching gear 1533 is movably connected with the right end of the straight-tooth rod 1524, and the matching gear.

Subassembly 153 is stirred in the flow direction is the cuboid flat plate, and the right-hand member is equipped with the rectangular entity of semicircle, and the left end is equipped with driving lever pivot 1531 and connects and to stir from top to bottom in cooperation gear 1533 can be under the drive of straight-tooth pole 1524, can carry out the horizontal hunting to the fodder when putting in the fodder and make the fodder discharge the angular range of the ejection of compact bigger.

When the device is used, raw materials are added into the storage tank 111 on the machine body 1, the stirring blades 112 are stirred to be discharged on the discharge pipeline 114, meanwhile, the rotating blades 131 rotate to generate wind energy to blow the feed, when the rotating blades 131 rotate, the speed change gear box 1412 on the wind speed adjusting mechanism 14 is driven to rotate, so that the connecting rod rotating block 1411 is driven to rotate, the connecting rod 1414 is pushed to reciprocate up and down, the lower pressing plate 1422 is pushed to move up and down, the caliber of the exhaust pipeline is improved, the gas of the feed is pushed to be large or small, the distance of the feed pushed on the water surface is short or long, the feed feeding distance is prevented from being single, the feed can be pushed to only one fixed area, the feed in the area is accumulated together, the fish is not convenient to eat, and when the feed is conveyed, motor 1511 leads to driving sector gear pivot 1512 and rotates, make sector gear 1513 cooperate with moving frame 1521's inside casing, make moving frame 1521 carry out up-and-down reciprocating motion, it cooperatees with cooperation gear 1533 to drive straight-tooth pole 1524, make its driving lever 1532 that drives on the driving lever pivot 1531 carry out stirring about, stir about going on the fodder in the transportation, it is single to avoid the fodder to put in the independent direction, lead to a large amount of fishes of regional gathering of input, subsequent fish are difficult to be fed, and the fodder of putting in can absorb water at a period and deposit, influence the normal edible of fish.

The invention solves the problems that when the existing equipment is used for feeding feed, the feeding is usually carried out in a single direction, so that a great amount of fishes are gathered in a feeding area, the subsequent fishes are difficult to feed, the fed feed can absorb water and precipitate within a period of time to influence the normal eating of the fishes, and simultaneously when the feed is fed, the speed of a feeding device is usually fixed, so that the feed feeding distance is single, the feed can be pushed to a fixed area only, the feed in the area is accumulated together, and the fishes are inconvenient to eat, the invention improves the partial structure of the equipment, can control the feed to be discharged leftwards and rightwards by a shifting mechanism when the equipment is used, enlarges the angle range of the feed discharge, and avoids the single direction of the feed feeding, lead to a large amount of fishes of regional gathering of input, subsequent fish are difficult to be fed, and the fodder of putting in can absorb water at a period and deposit, influence the normal edible of fish, blow the subassembly simultaneously and drive the operation of wind speed adjustment mechanism, make the pipeline when giving vent to anger and promote the fodder, the size of continuous change pipeline bore, thereby adjust the speed of air current, it is single to avoid the fodder to put in the distance, only can promote the fodder of putting in to a fixed region, make the fodder in this region pile up together, the fish of being not convenient for eat.

While there have been shown and described what are at present considered the fundamental principles of the invention, the essential features and advantages thereof, it will be understood by those skilled in the art that the present invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but rather, is capable of numerous changes and modifications in various forms without departing from the spirit or essential characteristics thereof, and it is intended that the invention be limited not by the foregoing descriptions, but rather by the appended claims and their equivalents.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. Fish feeding device with stirring vane, its structure includes organism (1), side piece (2), control panel (3), supporting legs (4), the bottom of organism (1) welds mutually with the top of supporting legs (4), the middle part of organism (1) is located in side piece (2), the front end at organism (1) is installed in control panel (3) embedding, control panel (3) are located side piece (2) under, its characterized in that:

the machine body (1) comprises a feeding mechanism (11), a shell (12), a blowing assembly (13), a wind speed adjusting mechanism (14) and a shifting mechanism (15), wherein the left end and the right end of the feeding mechanism (11) are respectively welded with the left end and the right end in the shell (12), the right end of the blowing assembly (13) is welded with the left end of the wind speed adjusting mechanism (14), the bottom end of the wind speed adjusting mechanism (14) is welded with the bottom end in the shell (12), the shifting mechanism (15) is vertically embedded into the top end of the right side of the feeding mechanism (11), and the shifting mechanism (15) is positioned on the right side of the wind speed adjusting mechanism (14);

the feeding mechanism (11) comprises a storage tank (111), a stirring blade (112), a stirring tank (113) and a discharge pipeline (114), the bottom end of the storage tank (111) is welded with the top end of the stirring tank (113), the stirring blade (112) is embedded in the stirring tank (113), the bottom end of the stirring tank (113) is welded with the top end of the discharge pipeline (114), the stirring blade (112) is positioned right above the discharge pipeline (114), and the left end of the discharge pipeline (114) is welded with the right end of the blowing assembly (13);

the blowing assembly (13) comprises a rotating blade (131), a sealing shell (132) and a supporting valve block (133), the rotating blade (131) is embedded in the middle of the sealing shell (132), the top end of the supporting valve block (133) is welded with the bottom end of the sealing shell (132), the rotating blade (131) is positioned above the supporting valve block (133), and the right end of the sealing shell (132) is welded with the left end of the discharge pipeline (114);

the wind speed adjusting mechanism (14) comprises a driving mechanism (141) and a pipe diameter control assembly (142), the bottom end of the driving mechanism (141) is movably connected with the top end of the pipe diameter control assembly (142), the driving mechanism (141) comprises a connecting rod rotating block (1411), a speed change gear box (1412), a belt (1413) and a connecting rod (1414), the connecting rod rotating block (1411) is arranged in the middle of the speed change gear box (1412), the belt (1413) is horizontally embedded into the left end of the speed change gear box (1412), the bottom end of the connecting rod (1414) is hinged with the outer ring part of the connecting rod rotating block (1411), and the bottom end of the connecting rod rotating block (1411) is movably connected with the middle of the pipe diameter control assembly (142);

the pipe diameter control assembly (142) comprises a lower pressing plate rotating block (1421), a lower pressing plate (1422), a connecting rod connecting block (1423) and a telescopic sealing strip (1424), the middle of the lower pressing plate rotating block (1421) is provided with the left end of the lower pressing plate (1422), the top end of the lower pressing plate (1422) and the bottom end of the connecting rod connecting block (1423) are of an integrated structure, the top end of the telescopic sealing strip (1424) is welded with the middle outer ring part of the lower pressing plate (1422), and the middle of the connecting rod connecting block (1423) is movably connected with the bottom end of the connecting rod rotating block (1411);

the toggle mechanism (15) comprises a reciprocating drive mechanism (151), a drive connecting assembly (152) and a flow direction toggle assembly (153), the reciprocating drive mechanism (151) is movably connected with the left end of the drive connecting assembly (152), the right end of the drive connecting assembly (152) is movably connected with the left end of the flow direction toggle assembly (153), the reciprocating drive mechanism (151) comprises a motor (1511), a sector gear rotating shaft (1512) and a sector gear (1513), the sector gear rotating shaft (1512) is embedded in the middle of the motor (1511), and the sector gear (1513) and the sector gear rotating shaft (1512) are of an integrated structure;

the driving connection assembly (152) comprises a moving frame (1521), a connection block (1522), a connection block (1523) and a straight-tooth rod (1524), the right end of the moving frame (1521) is provided with the left end of the connection block (1522), the connection block (1522) is vertically embedded into the left end of the connection block (1523), the left end of the straight-tooth rod (1524) and the right end of the connection block (1523) are of an integrated structure, and the right end of the straight-tooth rod (1524) is movably connected with the left end of the flow direction shifting assembly (153);

the flow direction toggle assembly (153) comprises a toggle rod rotating shaft (1531), a toggle rod (1532) and a matching gear (1533), the toggle rod rotating shaft (1531) and the left end of the toggle rod (1532) are of an integrated structure, the matching gear (1533) and the toggle rod rotating shaft (1531) are positioned on the same axis, and the left end of the matching gear (1533) is movably connected with the right end of the straight-tooth rod (1524);

when the device is used, raw materials are added into a storage tank (111) on a machine body (1), a stirring blade (112) is used for stirring the materials, the materials come to a discharge pipeline (114) for discharging, meanwhile, a rotating blade (131) rotates to generate wind energy for blowing the feed, when the rotating blade (131) rotates, a speed change gear box (1412) on a wind speed adjusting mechanism (14) is driven to rotate, a connecting rod rotating block (1411) is driven to rotate, a connecting rod (1414) is driven to do up-and-down reciprocating motion, a lower pressing plate (1422) is driven to do up-and-down motion, the caliber of an exhaust pipeline is improved, so that the gas for pushing the feed is small in size, the distance for pushing the feed on the water surface is short and long, the feed throwing distance is avoided being single, the feed can be pushed only to a fixed area, and the feed in the area is accumulated together, not convenient to fish and eat, when carrying the fodder, motor (1511) passband moves sector gear pivot (1512) and rotates, make sector gear (1513) cooperate with the inside casing of moving frame (1521), make moving frame (1521) carry out up-and-down reciprocating motion, it cooperatees with cooperation gear (1533) to drive straight toothed bar (1524), make its driving lever (1532) that drives on driving lever pivot (1531) carry out stirring about, stir about the fodder in the transportation, it is single to avoid the fodder to put in the independent direction, lead to a large amount of fishes of regional gathering of input, subsequent fish are difficult to be fed, and the fodder of putting in can absorb water at a period and deposit, influence the normal edible of fish.